AFM Probes  »  
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Order Code / Price*
Quantity
Q-AR5-10 Box of 10 AFM Probes
1300.00 USD
Price shown as ex-works and subjected to shipping charges, insurance, local VAT and custom duties respectively where applicable

Q-AR5

Premounted High-Aspect-Ratio, Tapping Mode AFM Probe with Long Cantilever, for Quesant/Ambios AFM systems

Manufacturer: NanoWorld

Coating: Reflective Aluminum
AFM tip shape: High-Aspect-Ratio
AFM Cantilever
F 190 kHz
C 48 N/m
L 225 µm
*nominal values
Applications
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NanoWorld Pointprobe® NCL AFM probes are designed for non-contact or tapping™  mode imaging and offer an alternative to our high frequency non-contact type NCH. The NCL type is recommended if the feedback loop of the microscope does not accept high frequencies or if the detection system needs a minimum AFM cantilever length (> 125 µm). This AFM probe combines high operation stability with outstanding sensitivity. Compared to the high frequency non-contact type NCH the maximum scanning speed is slightly reduced.

All SPM and AFM probes of the Pointprobe® series are made from monolithic silicon which is highly doped to dissipate static charge. They are chemically inert and offer a high mechanical Q-factor for high sensitivity. The AFM tip is shaped like a polygon based pyramid.

For measurements on samples with sidewall angles approaching 90° we offer specially tailored tips showing a high aspect ratio portion with near-vertical sidewalls.

These AFM probes offer unique features:

  • length of the high aspect ratio portion of the tip > 2 µm
  • typical aspect ratio of this portion in the order of 7:1 (when viewed from side as well as along cantilever axis)
  • half cone angle of the high aspect ratio portion typically < 5°
  • excellent tip radius of curvature    
Premounted AFM probe on a Quesant T-plate for Quesant AFM systems. Based on a NanoWorld NW-AR5-NCLR AFM probe.

Aluminum Reflex Coating

The aluminum reflex coating consists of a 30 nm thick aluminum layer deposited on the detector side of the AFM cantilever which enhances the reflectance of the laser beam by a factor of 2.5. Furthermore it prevents light from interfering within the AFM cantilever.
AFM Tip:

  • AFM Cantilever:
  • Beam
  • 48 N/m (31 - 71 N/m)*
  • 190 kHz (160 - 210 kHz)*
  • 225 µm (220 - 230 µm)*
  • 38 µm (33 - 43 µm)*
  • 7 µm ( 6.5 - 7.5 µm)*
  • * typical range
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